• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 2
  • 2
  • 1
  • Tagged with
  • 5
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Functional Constraints on Replacing an Essential Gene with Its Ancient and Modern Homologs

Kacar, Betül, Garmendia, Eva, Tuncbag, Nurcan, Andersson, Dan I., Hughes, Diarmaid 29 August 2017 (has links)
Genes encoding proteins that carry out essential informational tasks in the cell, in particular where multiple interaction partners are involved, are less likely to be transferable to a foreign organism. Here, we investigated the constraints on transfer of a gene encoding a highly conserved informational protein, translation elongation factor Tu (EF-Tu), by systematically replacing the endogenous tufA gene in the Escherichia coli genome with its extant and ancestral homologs. The extant homologs represented tuf variants from both near and distant homologous organisms. The ancestral homologs represented phylogenetically resurrected tuf sequences dating from 0.7 to 3.6 billion years ago (bya). Our results demonstrate that all of the foreign tuf genes are transferable to the E. coli genome, provided that an additional copy of the EF-Tu gene, tufB, remains present in the E. coli genome. However, when the tufB gene was removed, only the variants obtained from the gammaproteobacterial family (extant and ancestral) supported growth which demonstrates the limited functional interchangeability of E. coli tuf with its homologs. Relative bacterial fitness correlated with the evolutionary distance of the extant tuf homologs inserted into the E. coli genome. This reduced fitness was associated with reduced levels of EF-Tu and reduced rates of protein synthesis. Increasing the expression of tuf partially ameliorated these fitness costs. In summary, our analysis suggests that the functional conservation of protein activity, the amount of protein expressed, and its network connectivity act to constrain the successful transfer of this essential gene into foreign bacteria. IMPORTANCE Horizontal gene transfer (HGT) is a fundamental driving force in bacterial evolution. However, whether essential genes can be acquired by HGT and whether they can be acquired from distant organisms are very poorly understood. By systematically replacing tuf with ancestral homologs and homologs from distantly related organisms, we investigated the constraints on HGT of a highly conserved gene with multiple interaction partners. The ancestral homologs represented phylogenetically resurrected tuf sequences dating from 0.7 to 3.6 bya. Only variants obtained from the gammaproteobacterial family (extant and ancestral) supported growth, demonstrating the limited functional interchangeability of E. coli tuf with its homologs. Our analysis suggests that the functional conservation of protein activity, the amount of protein expressed, and its network connectivity act to constrain the successful transfer of this essential gene into foreign bacteria.
2

Föreningslivets (TUF) och skolans betydelse för turkiska ungdomars identitet : En kvalitativ studie om fem turkiska ungdomars uppfattning om deras identitetskapande

Demirkiran, Melisa January 2011 (has links)
The Swedish society has gone through a radical change. From being a monoculture society it has developed into a multicultural society representing a mixture of people from all around the world. This change has had a significant impact on both the Swedish school system and the teacher’s role. Therefore a subsequent ambition for a multicultural school would be to recognize this diversity and establish guidelines for how to meet each individual students need. To be able to recognize how different students develop in different ways is one of the reasons for this research. Different directions of social science have discussed in what way schools take part in youth identity formation. However, it has been less argued how immigrant associations take part in the same formation. This essay aims to illustrate, analyze and discuss how five young Turkish students, living in two different cultures, experience how the school and immigrant associations have affected the formation of their identity. I have chosen to use a qualitative approach, using in-depth interviews with five youths at the age of 16-18. The common denominator of these youths are (i) they all have roots in Turkey, (ii) they are all students at upper-secondary school, (iii) they study in the Stockholm area and (iv) they are members of TUF (The Turkish Youth Association). The conclusion of this study is that the school, teachers and friends play a very important role in youth identity formation. A problem that this research identifies is that the schools lack the capability to satisfy individual needs, resulting in many students facing difficulties when forming an identity. Due to the fact that many times the school does not encourage, nor observe the different backgrounds of the students. Furthermore, according to my research a probable reason why many youths with foreign background search immigrant associations, is because they feel fellowship and security when together with people from the association. This, in turn, has a positive effect on their self-image and identity. Title: The importance that voluntary sector (TUF) and the school have on Turkish youth’s identity creation.
3

TUF on the Tangle : Securing software updates using a distributed ledger / Verifiering av mjukvaruuppdateringar på en distribuerad ledger

Johns, Oliver, Andell, Anton January 2021 (has links)
This study investigates the viability of revising The Update Framework (TUF) to be implemented on a distributed ledger called IOTA. TUF is a framework that is becoming the de facto standard for securing update systems. The design for the revised Update Framework, called TUFT, is thoroughly explained and examined. A security analysis  as well as a performance analysis are made for the proposed design and prototype respectivly. Security-wise, TUFT is determined to be more secure than the original framework. On the other hand, TUFT is shown to be slower than the original TUF, with some scalability issues due to the requirement to fetch the whole update history for a repository. To accompany a wider range of software we also introduce new features in TUFT that provide versioning and mapping. The work done shows that a distributed ledger can improve a system like TUF in regards to security, auditability, and immutability. In summary, the proposed TUFT design is promising with its new features although it is limited performance-wise in some regards. With the updates being done to the IOTA ledger, a system like TUFT could be further improved upon to reduce the performance impact.
4

Desenvolvimento de métodos para a quantificação direta de Salmonella sp. por PCR-tempo real e por transcriptase reversa-PCR-tempo real / Development of methods for the direct quantification of Salmonella sp. using real time-PCR and reverse transcriptase-PCR-real time

Froder, Hans 25 November 2008 (has links)
Para obter resultados rápidos e confiáveis que permitam o monitoramento da segurança microbiológica de alimentos, seja pela indústria ou pelos órgãos de fiscalização, diversos métodos alternativos têm sido desenvolvidos para a detecção e quantificação de Salmonella. Os propósitos do estudo foram avaliar a viabilidade de emprego do QIAamp® DNA Stool Mini Kit para extração e purificação de DNA de Salmonella; validar ensaios baseados em PCR-tempo real (PCR-RT) para quantificar o DNA de Salmonella empregando ttr ou tuf e desenvolver um ensaio para quantificar Salmonella baseado na transcriptase reversa-PCR-tempo real (RT-PCR-RT). Para avaliação do QIAamp® DNA Stool Mini Kit empregaram-se fezes coletadas diretamente do reto de animais infectados ou não, sendo estas últimas artificialmente contaminadas e submetidas à extração segundo protocolo do fabricante. As amostras de DNA isoladas foram quantificadas empregando um ensaio Salmonella-específico PCR-RT utilizando como alvo o lócus ttr. O mesmo ensaio foi utilizado para células de Salmonella provenientes de meio de cultura. O ensaio PCR-RT baseado no alvo tuf foi validado empregando-se primeiramente cepas de diferentes sorotipos de Salmonella e de outras Enterobacteriaceae. A seguir sua eficiência foi avaliada para alimentos-modelo (ave e suíno) artificialmente contaminadas com elevada (≈ 6 log UFC/mL) e baixa (≈ 2 log UFC/mL) população de Salmonella Typhimurium DT 104. A validação do método quantitativo de Salmonella por RT-PCR-RT foi realizada primeiramente com células em meio de cultura e posteriormente nos mesmos alimentos-modelo utilizados para PCR-RT. Em ambos os métodos, alíquotas dos alimentos-modelo foram mantidas a 20 ºC e a 8 ºC, sendo examinadas em diferentes tempos pós-inoculação. Como controle empregou-se a enumeração de microrganismos mesófilos totais e de Salmonella por técnicas convencionais. A taxa de recuperação de Salmonella em fezes suínas artificialmente inoculadas, após tratamento com QIAamp® DNA Stool Kit, variou entre 25% a 50%, dependendo da quantidade inicial de células. Empregando o DNA extraído e submetendo-o à PCR-RT para o ttr obteve-se limite de detecção de 2,8 log UFC eq/g de fezes; método que foi menos sensível que o convencional. A quantificação de Salmonella por PCR-RT empregando tuf apresentou limite de detecção menor que 1 log UFC eq. Os resultados obtidos com este método, empregando-se células em meio de cultura ou alimentos-modelo, foram, de maneira geral, ligeiramente inferiores aos do método convencional. A eficiência de amplificação para PCR-RT e tuf foi de 94%. O método RT-PCR-RT apresentou limite de detecção semelhante ao obtido com o ttr (2 log UFC eq) e sua eficiência de amplificação foi de 100%. Observou-se que tuf é expresso na fase logarítmica de multiplicação bacteriana, o que o torna um bom indicador da viabilidade de Salmonella. / In order to get fast and trustworthy results that allow monitoring the microbiological food safety either by industries or governmental agencies, diverse alternative methods have been developed for Salmonella detection and quantification. The purposes of this study were to evaluate the viability of the use of QIAamp® DNA Stool Mini Kit for Salmonella DNA extraction and purification; to validate assays based on real time-PCR (PCR-RT) to quantify Salmonella DNA by using ttr or tuf, and to develop an assay to quantify Salmonella based on reverse transcriptase- PCR-real time (RT-PCR-RT). For QIAamp® DNA Stool Mini Kit evaluation feces taken directly from the rectum of infected or health animals were used, with the former being artificially contaminated. Samples were submitted to DNA extraction, according to manufacturers protocol. The isolated DNA were quantified using a Salmonella-specific PCR-RT targeting the ttr locus. The same assay was used for Salmonella cells originated from culture medium. The PCR-RT assay with tuf as target was first validated employing different Salmonella serovars and other Enterobacteriaceae strains. After, its efficiency was evaluated on food-models (chicken and swine) spiked with high (≈ 6 log CFU/mL) and low (≈ 2 log CFU/mL) Salmonella Typhimurium DT 104 populations. The validation of the quantitative RT-PCR-RT method was first conducted with cells grown in culture medium, and then in the same food-model used for PCR-RT. For both methods aliquots of foodmodels were maintained at 20 ºC and 8 ºC being evaluated at different incubation times. Enumeration of total mesophilic microorganisms and Salmonella based on conventional methods were used as controls. The DNA recovery rate in swine feces artificially inoculated, after QIAamp® DNA Stool Mini Kit treatment, was between 25% to 50% depending the initial amount of cells. Using the extracted DNA and submitting it to PCR-RT for ttr a detection level of 2,8 CFU eq/g of feces was obtained. This method showed lower sensitivity than the conventional. Salmonella quantification by PCR-RT employing tuf showed a detection level lower than 1 log CFU eq. The results obtained with this method and cells suspended in culture medium or in food-model systems were, in general slightly lower that those obtained with the conventional method. The efficiency of amplification for PCR-RT tuf was 94%. Detection limit of RT-PCR-RT was similar to that of ttr (2 log CFU eq) and efficiency of amplification was 100%. tuf was expressed in logarithmic phase of bacteria growth curve showing that it is a good viability indicator for Salmonella.
5

Desenvolvimento de métodos para a quantificação direta de Salmonella sp. por PCR-tempo real e por transcriptase reversa-PCR-tempo real / Development of methods for the direct quantification of Salmonella sp. using real time-PCR and reverse transcriptase-PCR-real time

Hans Froder 25 November 2008 (has links)
Para obter resultados rápidos e confiáveis que permitam o monitoramento da segurança microbiológica de alimentos, seja pela indústria ou pelos órgãos de fiscalização, diversos métodos alternativos têm sido desenvolvidos para a detecção e quantificação de Salmonella. Os propósitos do estudo foram avaliar a viabilidade de emprego do QIAamp® DNA Stool Mini Kit para extração e purificação de DNA de Salmonella; validar ensaios baseados em PCR-tempo real (PCR-RT) para quantificar o DNA de Salmonella empregando ttr ou tuf e desenvolver um ensaio para quantificar Salmonella baseado na transcriptase reversa-PCR-tempo real (RT-PCR-RT). Para avaliação do QIAamp® DNA Stool Mini Kit empregaram-se fezes coletadas diretamente do reto de animais infectados ou não, sendo estas últimas artificialmente contaminadas e submetidas à extração segundo protocolo do fabricante. As amostras de DNA isoladas foram quantificadas empregando um ensaio Salmonella-específico PCR-RT utilizando como alvo o lócus ttr. O mesmo ensaio foi utilizado para células de Salmonella provenientes de meio de cultura. O ensaio PCR-RT baseado no alvo tuf foi validado empregando-se primeiramente cepas de diferentes sorotipos de Salmonella e de outras Enterobacteriaceae. A seguir sua eficiência foi avaliada para alimentos-modelo (ave e suíno) artificialmente contaminadas com elevada (≈ 6 log UFC/mL) e baixa (≈ 2 log UFC/mL) população de Salmonella Typhimurium DT 104. A validação do método quantitativo de Salmonella por RT-PCR-RT foi realizada primeiramente com células em meio de cultura e posteriormente nos mesmos alimentos-modelo utilizados para PCR-RT. Em ambos os métodos, alíquotas dos alimentos-modelo foram mantidas a 20 ºC e a 8 ºC, sendo examinadas em diferentes tempos pós-inoculação. Como controle empregou-se a enumeração de microrganismos mesófilos totais e de Salmonella por técnicas convencionais. A taxa de recuperação de Salmonella em fezes suínas artificialmente inoculadas, após tratamento com QIAamp® DNA Stool Kit, variou entre 25% a 50%, dependendo da quantidade inicial de células. Empregando o DNA extraído e submetendo-o à PCR-RT para o ttr obteve-se limite de detecção de 2,8 log UFC eq/g de fezes; método que foi menos sensível que o convencional. A quantificação de Salmonella por PCR-RT empregando tuf apresentou limite de detecção menor que 1 log UFC eq. Os resultados obtidos com este método, empregando-se células em meio de cultura ou alimentos-modelo, foram, de maneira geral, ligeiramente inferiores aos do método convencional. A eficiência de amplificação para PCR-RT e tuf foi de 94%. O método RT-PCR-RT apresentou limite de detecção semelhante ao obtido com o ttr (2 log UFC eq) e sua eficiência de amplificação foi de 100%. Observou-se que tuf é expresso na fase logarítmica de multiplicação bacteriana, o que o torna um bom indicador da viabilidade de Salmonella. / In order to get fast and trustworthy results that allow monitoring the microbiological food safety either by industries or governmental agencies, diverse alternative methods have been developed for Salmonella detection and quantification. The purposes of this study were to evaluate the viability of the use of QIAamp® DNA Stool Mini Kit for Salmonella DNA extraction and purification; to validate assays based on real time-PCR (PCR-RT) to quantify Salmonella DNA by using ttr or tuf, and to develop an assay to quantify Salmonella based on reverse transcriptase- PCR-real time (RT-PCR-RT). For QIAamp® DNA Stool Mini Kit evaluation feces taken directly from the rectum of infected or health animals were used, with the former being artificially contaminated. Samples were submitted to DNA extraction, according to manufacturers protocol. The isolated DNA were quantified using a Salmonella-specific PCR-RT targeting the ttr locus. The same assay was used for Salmonella cells originated from culture medium. The PCR-RT assay with tuf as target was first validated employing different Salmonella serovars and other Enterobacteriaceae strains. After, its efficiency was evaluated on food-models (chicken and swine) spiked with high (≈ 6 log CFU/mL) and low (≈ 2 log CFU/mL) Salmonella Typhimurium DT 104 populations. The validation of the quantitative RT-PCR-RT method was first conducted with cells grown in culture medium, and then in the same food-model used for PCR-RT. For both methods aliquots of foodmodels were maintained at 20 ºC and 8 ºC being evaluated at different incubation times. Enumeration of total mesophilic microorganisms and Salmonella based on conventional methods were used as controls. The DNA recovery rate in swine feces artificially inoculated, after QIAamp® DNA Stool Mini Kit treatment, was between 25% to 50% depending the initial amount of cells. Using the extracted DNA and submitting it to PCR-RT for ttr a detection level of 2,8 CFU eq/g of feces was obtained. This method showed lower sensitivity than the conventional. Salmonella quantification by PCR-RT employing tuf showed a detection level lower than 1 log CFU eq. The results obtained with this method and cells suspended in culture medium or in food-model systems were, in general slightly lower that those obtained with the conventional method. The efficiency of amplification for PCR-RT tuf was 94%. Detection limit of RT-PCR-RT was similar to that of ttr (2 log CFU eq) and efficiency of amplification was 100%. tuf was expressed in logarithmic phase of bacteria growth curve showing that it is a good viability indicator for Salmonella.

Page generated in 0.0262 seconds